Intra-assessor reliability and measurement error of ultrasound measures for foot muscle morphology in older adults using a tablet-based ultrasound machine

BACKGROUND: To gain insight into the role of plantar intrinsic foot muscles in fall-related gait parameters in older adults, it is fundamental to assess foot muscles separately. Ultrasonography is considered a promising instrument to quantify the strength capacity of individual muscles by assessing their morphology. The main goal of this study was to investigate the intra-assessor reliability and measurement error for ultrasound measures for the morphology of selected foot muscles and the plantar fascia in older adults using a tablet-based device. The secondary aim was to compare the measurement error between older and younger adults and between two different ultrasound machines. METHODS: Ultrasound images of selected foot muscles and the plantar fascia were collected in younger and older adults by a single operator, intensively trained in scanning the foot muscles, on two occasions, 1–8 days apart, using a tablet-based and a mainframe system. The intra-assessor reliability and standard error of measurement for the cross-sectional area and/or thickness were assessed by analysis of variance. The error variance was statistically compared across age groups and machines. RESULTS: Eighteen physically active older adults (mean age 73.8 (SD: 4.9) years) and ten younger adults (mean age 21.9 (SD: 1.8) years) participated in the study. In older adults, the standard error of measurement ranged from 2.8 to 11.9%. The ICC ranged from 0.57 to 0.97, but was excellent in most cases. The error variance for six morphology measures was statistically smaller in younger adults, but was small in older adults as well. When different error variances were observed across machines, overall, the tablet-based device showed superior repeatability. CONCLUSIONS: This intra-assessor reliability study showed that a tablet-based ultrasound machine can be reliably used to assess the morphology of selected foot muscles in older adults, with the exception of plantar fascia thickness. Although the measurement errors were sometimes smaller in younger adults, they seem adequate in older adults to detect group mean hypertrophy as a response to training. A tablet-based ultrasound device seems to be a reliable alternative to a mainframe system. This advocates its use when foot muscle morphology in older adults is of interest. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13047-022-00510-1

The effect of interventions anticipated to improve plantar intrinsic foot muscle strength on fall-related dynamic function in adults:A systematic review

BACKGROUND: The plantar intrinsic foot muscles (PIFMs) have a role in dynamic functions, such as balance and propulsion, which are vital to walking. These muscles atrophy in older adults and therefore this population, which is at high risk to falling, may benefit from strengthening these muscles in order to improve or retain their gait performance. Therefore, the aim was to provide insight in the evidence for the effect of interventions anticipated to improve PIFM strength on dynamic balance control and foot function during gait in adults. METHODS: A systematic literature search was performed in five electronic databases. The eligibility of peer-reviewed papers, published between January 1, 2010 and July 8, 2020, reporting controlled trials and pre-post interventional studies was assessed by two reviewers independently. Results from moderate- and high-quality studies were extracted for data synthesis by summarizing the standardized mean differences (SMD). The GRADE approach was used to assess the certainty of evidence. RESULTS: Screening of 9199 records resulted in the inclusion of 11 articles of which five were included for data synthesis. Included studies were mainly performed in younger populations. Low-certainty evidence revealed the beneficial effect of PIFM strengthening exercises on vertical ground reaction force (SMD: − 0.31-0.37). Very low-certainty evidence showed that PIFM strength training improved the performance on dynamic balance testing (SMD: 0.41–1.43). There was no evidence for the effect of PIFM strengthening exercises on medial longitudinal foot arch kinematics. CONCLUSIONS: This review revealed at best low-certainty evidence that PIFM strengthening exercises improve foot function during gait and very low-certainty evidence for its favorable effect on dynamic balance control. There is a need for high-quality studies that aim to investigate the effect of functional PIFM strengthening exercises in large samples of older adults. The outcome measures should be related to both fall risk and the role of the PIFMs such as propulsive forces and balance during locomotion in addition to PIFM strength measures. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13047-021-00509-0

Quality Improvement of Pancreatic Surgery by Centralization in the Western Part of the Netherlands

BACKGROUND: Centralization of pancreatic surgery in high-volume hospitals is under debate in many countries. In the western part of the Netherlands, the professional network of surgical oncologists agreed to centralize all pancreatic surgery from 2006 in two high-volume hospitals. Our aim is to evaluate whether centralization of pancreatic surgery has improved clinical outcomes and has changed referral patterns. MATERIALS AND METHODS: Data of the Comprehensive Cancer Centre West (CCCW) of all 249 patients who had a resection for suspected pancreatic cancer between 1996 and 2008 in the western part of the Netherlands were analyzed. Multivariable modeling was used to evaluate survival for 3 time periods; 1996–2000, 2001–2005 (introduction of quality standards), and 2006–2008 (after centralization). In addition, the differences in referral pattern were analyzed. RESULTS: From 2006, all pancreatic surgery was centralized in 2 hospitals. The 2-year survival rate increased after centralization from 39% to 55% (P = .09) for all patients who had a pancreatic resection for pancreatic cancer. After adjustment for age, tumor location, stage, histology, and adjuvant treatment, the latter period was significantly associated with improved survival (hazard ratio [HR] 0.50; 95% confidence interval [95% CI] 0.34–0.73). CONCLUSIONS: Centralization of pancreatic surgery was successful and has resulted in improved clinical outcomes in the western part of the Netherlands, demonstrating the effectiveness of centralization

Outcomes After Major Surgical Procedures in Octogenarians:A Nationwide Cohort Study

Introduction: Aging of the worldwide population has been observed, and postoperative outcomes could be worse in elderly patients. This nationwide study assessed trends in number of surgical resections in octogenarians regarding various major surgical procedures and associated postoperative outcomes. Methods: All patients who underwent surgery between 2014 and 2018 were included from Dutch nationwide quality registries regarding esophageal, stomach, pancreas, colorectal liver metastases, colorectal cancer, lung cancer and abdominal aortic aneurysms (AAA). For each quality registry, the number of patients who were 80 years or older (octogenarians) was calculated per year. Postoperative outcomes were length of stay (LOS), 30 day major morbidity and 30 day mortality between octogenarians and younger patients. Results: No increase in absolute number and proportion of octogenarians that underwent surgery was observed. Median LOS was higher in octogenarians who underwent surgery for colorectal cancer, colorectal liver metastases, lung cancer, pancreatic disease and esophageal cancer. 30 day major morbidity was higher in octogenarians who underwent surgery for colon cancer, esophageal cancer and elective AAA-repair. 30 day mortality was higher in octogenarians who underwent surgery for colorectal cancer, lung cancer, stomach cancer, pancreatic disease, esophageal cancer and elective AAA-repair. Median LOS decreased between 2014 and 2018 in octogenarians who underwent surgery for stomach cancer and colorectal cancer. 30 day major morbidity decreased between 2014 and 2018 in octogenarians who underwent surgery for colon cancer. No trends were observed in octogenarians regarding 30 day mortality between 2014 and 2018. Conclusion: No increase over time in absolute number and proportion of octogenarians that underwent major surgery was observed in the Netherlands. Postoperative outcomes were worse in octogenarians

Intra-assessor reliability and measurement error of ultrasound measures for foot muscle morphology in older adults using a tablet-based ultrasound machine

Background To gain insight into the role of plantar intrinsic foot muscles in fall-related gait parameters in older adults, it is fundamental to assess foot muscles separately. Ultrasonography is considered a promising instrument to quantify the strength capacity of individual muscles by assessing their morphology. The main goal of this study was to investigate the intra-assessor reliability and measurement error for ultrasound measures for the morphology of selected foot muscles and the plantar fascia in older adults using a tablet-based device. The secondary aim was to compare the measurement error between older and younger adults and between two different ultrasound machines. Methods Ultrasound images of selected foot muscles and the plantar fascia were collected in younger and older adults by a single operator, intensively trained in scanning the foot muscles, on two occasions, 1–8 days apart, using a tablet-based and a mainframe system. The intra-assessor reliability and standard error of measurement for the cross-sectional area and/or thickness were assessed by analysis of variance. The error variance was statistically compared across age groups and machines. Results Eighteen physically active older adults (mean age 73.8 (SD: 4.9) years) and ten younger adults (mean age 21.9 (SD: 1.8) years) participated in the study. In older adults, the standard error of measurement ranged from 2.8 to 11.9%. The ICC ranged from 0.57 to 0.97, but was excellent in most cases. The error variance for six morphology measures was statistically smaller in younger adults, but was small in older adults as well. When different error variances were observed across machines, overall, the tablet-based device showed superior repeatability. Conclusions This intra-assessor reliability study showed that a tablet-based ultrasound machine can be reliably used to assess the morphology of selected foot muscles in older adults, with the exception of plantar fascia thickness. Although the measurement errors were sometimes smaller in younger adults, they seem adequate in older adults to detect group mean hypertrophy as a response to training. A tablet-based ultrasound device seems to be a reliable alternative to a mainframe system. This advocates its use when foot muscle morphology in older adults is of interest

Replication Data for: Plantar Intrinsic Foot Muscle Activation during Functional Exercises compared to Isolated Foot Exercises in Younger Adults.

The data consist of raw and filtered non-invasive electromyography (EMG) data of 4 foot muscles while foot exercises are performed by non-symptomatic younger adults. The data package also contains summary measures (i.e., mean EMG amplitude and EMG integrated over time) and the scripts used to obtain these variables. The main goal of this study was to compare muscle activation of plantar intrinsic foot muscles, by means of EMG parameters, between functional exercises and isolated foot exercises. The secondary goal was to determine the effect of variations of foot exercises on the activation of the plantar intrinsic foot muscles

Intra-assessor reliability and measurement error of ultrasound measures for foot muscle morphology in older adults using a tablet-based ultrasound machine

Background To gain insight into the role of plantar intrinsic foot muscles in fall-related gait parameters in older adults, it is fundamental to assess foot muscles separately. Ultrasonography is considered a promising instrument to quantify the strength capacity of individual muscles by assessing their morphology. The main goal of this study was to investigate the intra-assessor reliability and measurement error for ultrasound measures for the morphology of selected foot muscles and the plantar fascia in older adults using a tablet-based device. The secondary aim was to compare the measurement error between older and younger adults and between two different ultrasound machines. Methods Ultrasound images of selected foot muscles and the plantar fascia were collected in younger and older adults by a single operator, intensively trained in scanning the foot muscles, on two occasions, 1–8 days apart, using a tablet-based and a mainframe system. The intra-assessor reliability and standard error of measurement for the cross-sectional area and/or thickness were assessed by analysis of variance. The error variance was statistically compared across age groups and machines. Results Eighteen physically active older adults (mean age 73.8 (SD: 4.9) years) and ten younger adults (mean age 21.9 (SD: 1.8) years) participated in the study. In older adults, the standard error of measurement ranged from 2.8 to 11.9%. The ICC ranged from 0.57 to 0.97, but was excellent in most cases. The error variance for six morphology measures was statistically smaller in younger adults, but was small in older adults as well. When different error variances were observed across machines, overall, the tablet-based device showed superior repeatability. Conclusions This intra-assessor reliability study showed that a tablet-based ultrasound machine can be reliably used to assess the morphology of selected foot muscles in older adults, with the exception of plantar fascia thickness. Although the measurement errors were sometimes smaller in younger adults, they seem adequate in older adults to detect group mean hypertrophy as a response to training. A tablet-based ultrasound device seems to be a reliable alternative to a mainframe system. This advocates its use when foot muscle morphology in older adults is of interest

Attitudes towards a sensor-feedback technology in gait rehabilitation of patients after stroke

Introduction:  Intensive gait training is important for effective rehabilitation of people after stroke. “Stappy” is a sensor-feedback system that provides real-time feedback on the persons gait pattern/performance during training. The main aim of this study was to assess attitudes towards “Stappy” in people after stroke to practise walking performance independently at home.  Methods:  Demographics were collected. Frequency of practice with “Stappy” was monitored through the system. Participants used “Stappy” at home for two weeks. Semi-structured interviews were conducted to explore patient experiences with “Stappy” afterwards. Interviews were analysed using thematic analysis. Results: Seventeen people after stroke (13 males, mean age 65, 17 to 172 months after stroke) were interviewed. There was a large variability (ranging from 0 to 14 days) in frequency of use over the two-week period. Although, thirty-eight percent were non-users, participants seemed satisfied about the option of feedback of the system on people’s gait pattern. Moderate to frequent users reported the ability to integrate “Stappy” into daily walking and the presence of support by the social environment as important factors for use.  Conclusion:  In a sub sample of stroke patients the ability to receive real-time feedback during practice about walking performance at home was viewed positively. Six participants did not or hardly used the sensor-feedback technology, even though they were positive about potential benefits. This implies that mHealth is not eligible for all individuals. To improve adherence various considerations were derived from this study, that may further optimise the frequency and personalise the use of the technology. Implication for rehabilitation  The frequency of use of a sensor-feedback technology in gait rehabilitation varied a lot in a cross-sectional sample of people after stroke. Patients after stroke seemed to have a positive attitude towards a sensor-feedback technology to support unsupervised practice of walking. However, this was unrelated to whether they had used or had not used the technology. Moderate and frequent users of the sensor-feedback technology reported the ability to integrate sensor-feedback technology in daily life and social support as important factors for use. For clinical practice in gait rehabilitation it is important to screen which patients are capable to use and may benefit from a technology as the one used in this study

Attitudes towards a sensor-feedback technology in gait rehabilitation of patients after stroke

Introduction:  Intensive gait training is important for effective rehabilitation of people after stroke. “Stappy” is a sensor-feedback system that provides real-time feedback on the persons gait pattern/performance during training. The main aim of this study was to assess attitudes towards “Stappy” in people after stroke to practise walking performance independently at home.  Methods:  Demographics were collected. Frequency of practice with “Stappy” was monitored through the system. Participants used “Stappy” at home for two weeks. Semi-structured interviews were conducted to explore patient experiences with “Stappy” afterwards. Interviews were analysed using thematic analysis. Results: Seventeen people after stroke (13 males, mean age 65, 17 to 172 months after stroke) were interviewed. There was a large variability (ranging from 0 to 14 days) in frequency of use over the two-week period. Although, thirty-eight percent were non-users, participants seemed satisfied about the option of feedback of the system on people’s gait pattern. Moderate to frequent users reported the ability to integrate “Stappy” into daily walking and the presence of support by the social environment as important factors for use.  Conclusion:  In a sub sample of stroke patients the ability to receive real-time feedback during practice about walking performance at home was viewed positively. Six participants did not or hardly used the sensor-feedback technology, even though they were positive about potential benefits. This implies that mHealth is not eligible for all individuals. To improve adherence various considerations were derived from this study, that may further optimise the frequency and personalise the use of the technology. Implication for rehabilitation  The frequency of use of a sensor-feedback technology in gait rehabilitation varied a lot in a cross-sectional sample of people after stroke. Patients after stroke seemed to have a positive attitude towards a sensor-feedback technology to support unsupervised practice of walking. However, this was unrelated to whether they had used or had not used the technology. Moderate and frequent users of the sensor-feedback technology reported the ability to integrate sensor-feedback technology in daily life and social support as important factors for use. For clinical practice in gait rehabilitation it is important to screen which patients are capable to use and may benefit from a technology as the one used in this study

The effect of interventions anticipated to improve plantar intrinsic foot muscle strength on fall-related dynamic function in adults: A systematic review

Background: The plantar intrinsic foot muscles (PIFMs) have a role in dynamic functions, such as balance and propulsion, which are vital to walking. These muscles atrophy in older adults and therefore this population, which is at high risk to falling, may benefit from strengthening these muscles in order to improve or retain their gait performance. Therefore, the aim was to provide insight in the evidence for the effect of interventions anticipated to improve PIFM strength on dynamic balance control and foot function during gait in adults. Methods: A systematic literature search was performed in five electronic databases. The eligibility of peer-reviewed papers, published between January 1, 2010 and July 8, 2020, reporting controlled trials and pre-post interventional studies was assessed by two reviewers independently. Results from moderate- and high-quality studies were extracted for data synthesis by summarizing the standardized mean differences (SMD). The GRADE approach was used to assess the certainty of evidence. Results: Screening of 9199 records resulted in the inclusion of 11 articles of which five were included for data synthesis. Included studies were mainly performed in younger populations. Low-certainty evidence revealed the beneficial effect of PIFM strengthening exercises on vertical ground reaction force (SMD: − 0.31-0.37). Very low-certainty evidence showed that PIFM strength training improved the performance on dynamic balance testing (SMD: 0.41–1.43). There was no evidence for the effect of PIFM strengthening exercises on medial longitudinal foot arch kinematics. Conclusions: This review revealed at best low-certainty evidence that PIFM strengthening exercises improve foot function during gait and very low-certainty evidence for its favorable effect on dynamic balance control. There is a need for high-quality studies that aim to investigate the effect of functional PIFM strengthening exercises in large samples of older adults. The outcome measures should be related to both fall risk and the role of the PIFMs such as propulsive forces and balance during locomotion in addition to PIFM strength measures